A Comprehensive Empirical Evaluation of Agent Frameworks on Code-centric Software Engineering Tasks
November 02, 2025 Β· Declared Dead Β· π arXiv.org
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Authors
Zhuowen Yin, Cuifeng Gao, Chunsong Fan, Wenzhang Yang, Yinxing Xue, Lijun Zhang
arXiv ID
2511.00872
Category
cs.SE: Software Engineering
Citations
1
Venue
arXiv.org
Last Checked
4 months ago
Abstract
Unlike traditional automation tools or static LLM-based systems, agents combine decision-making and tool utilization to accomplish complex tasks, showing great potential in software engineering. However, existing studies largely focus on specific tasks or isolated aspects, providing an incomplete picture of agents' practical capabilities. To address this, we conduct a comprehensive empirical study evaluating seven general-purpose agent frameworks across three representative code-centric tasks: software development, vulnerability detection, and program repair. Each task is assessed using standard, widely adopted benchmarks to ensure objective and comparable evaluation. Agent performance is systematically analyzed from three complementary perspectives: effectiveness (task success), efficiency (execution process), and overhead (token consumption). Our findings reveal distinct capability patterns and trade-offs among the evaluated frameworks. In terms of effectiveness, agents achieve moderate overall performance. Regarding efficiency, AgentOrchestra tends to exhibit the longest trajectories and the most correction attempts due to coordination overhead, whereas OpenHands demonstrate stronger reflective reasoning abilities. For overhead, software development incurs the highest monetary cost, while GPTswarm remains the most cost-efficient. Furthermore, we conduct an in-depth cross-analysis of the relationship between effectiveness and efficiency, exploring the underlying reasons behind their interplay. These findings guide both practical adoption and future research toward more efficient software engineering agents.
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